DE2216889C3 - Sensor for the continuous determination of the tensile load of pre-tensioned wires or tapes wound around a round or round container - Google Patents

Description

The invention relates to a sensor for continuously determining the tensile load of around one round or approximately round containers, in particular concrete containers, wound, prestressed wires or bands, such as those outlined in more detail in the preamble of claim 1 and, for example, from the US-PS 26 67 068 has become known In the case of the sensor shown in US-PS 26 67 068 one is to determine the respective tensile load state of the wrapped around a round concrete container, pretensioned reinforcement wires proceeded so that the wires in the area of a recess of the Container wall leads over a bridge frame and these exposed parts of the wires are extra for the Measurement process treated specially. So it is suggested there, the wires between the bridge poles by brushing, magnetizing with a permanent magnet and then putting the magnetized wires mechanically set vibrating by plucking. Using one near the vibrating wires The transmitted induction waves are recorded by the detective agency. The vibrations cause it of the wire, a change in the strength of the magnetic field in the vicinity of the induction coils of the detector and generate in this a variable electromotive force, its voltage amplified and whose frequency is measured. The tension of the pre-tensioned armor wire can now be calculated from the electrical oscillation frequency with the help of a certain formula.

However, such a measuring method is extremely cumbersome and, above all, prone to failure. aside from that it does not allow running, d. H. Continuous measurement of the respective tensile load condition of the reinforcement wires over a longer period of time.

The present invention is based on eliminating the aforementioned disadvantages, an object Sensor for determining the tensile load state of a container around a circular or roughly round container to provide coiled, pre-tensioned wires or tapes, which in a simple manner has a continuous, i. H. Permits continuous measurement of the tensile load on the wires or tapes without affecting the wires or tapes a separate electrical and / or mechanical energy must be supplied especially for the measuring process. the respective magnitude of the tensile load on the wires can then be calculated from their influence.

This object is now achieved according to the invention by the characterizing features of claim I.

By the measure, the measuring sensor mn one pre-tensioned wires or straps bearing support part, which is free on a pressure load loadable measuring device rests, it is now possible to measure the tensile stresses of the wires or tapes to measure continuously and to be able to read the measured values at any time. The in known case required and only used for the measurement time, cumbersome measures

men for the calculation of the reinforcement wires in dsn prevailing tensile stress cease to exist.

By the further measure that the measuring device stands on a base plate firmly connected to the bottom of the container recess, while the Support part or the measuring device is dimensioned so that the surface of the which directly absorbs the pressure loads on the prestressed wires or bands Support part while raising the pre-tensioned wires or bands obei half of the connecting surface between the upper edges of the container wall recess carrying the wires or bands, it is ensured that the tensile stress prevailing in the wires or ribbons flawlessly from the wires or Ribbons is transferable to the measuring device is

Further advantageous developments of the invention can be found in the subclaims.

The invention will now be explained in more detail with reference to the drawing using an exemplary embodiment

F i g. 1 is a schematic plan view of the sensor;

2 shows a schematic circuit diagram for the Sensor along the line H-II in Fig. 1 and

F i g. 3 is a schematic sectional view through the sensor along the line IH-III in FIG. 1.

The sensor according to FIG. 1 to 3 consists of a base plate 1 with stiffening ribs 14 extending therefrom Ausfütterungswand 2 and arranged transversely to these jo Ausfütterungsabschlussverbindungen 3, which delimit the outer recess of the container wall and enclose the measuring sensor. From the center of each lining end wall 3 goes from the base plate at a distance 1 the outwardly open, U-shaped channel 4 for the Recording of the wires or tapes, not shown, wound around the round container.

In the middle of the base plate 1 four measuring devices 5 are arranged in the form of supports Measuring devices carry between the open ends of the annular channel 4 a support part 6, which upright has standing side walls 6/4, which lie in planes. which run parallel to the planes in which the side walls of the channel 4 lie. The base plate I also has two auxiliary supports 7 arranged at right angles to it, which extend to the bottom of the channel 4 and form the bottom surface of the canal entrance there. The support part 6 has such a large distance from the Auxiliary supports 7th that a gap 8 between the support part 6 and each auxiliary support 7 remains.

Between the side wings 6ß of the support part 6 and the (round plate t can be four the load Arrange receiving lifting devices 9 removable.

The sensor shown is intended to record and measure changes in load that act on a pressure vessel act on concrete through pre-tensioned wires or tapes, with those wound onto the container Wires or bands run around the jacket of the container in predetermined basic channels. To this μ Zwewk is provided in the container by one of the prepared Grundkamtle a recess, the dimensions of which are chosen so that the Sensor can be accommodated in the recess. The base plate I lies on the floor of the μ Recess on. the channel 4 wove a lining for forms the basic channels provided in the container.

/ wcckmiinahmorweisc w.rcl during the assembly of the Sensor in the container and during the winding up of the tension wires, the support part 6 through into the Base plate 1 screwed support screws and others directed into the corners between the walls 2 and 3 Screws held in place. The screws directed towards the base plate are unscrewed after a first layer of wire has been wound up The screws leading into the corner will be removed after the winding has been completed taken out. During this time, the lifting devices 9 are not used

In relation to the recess provided for it to receive, the measuring sensor has dimensions and a shape such that the support part 6 when inserting the probe into the recess in its central area and its load-bearing Area 6C above the connecting surface between the upper edges carrying the prestressed wires the outer recess of the container wall lies

The tensioning wires wound on the container in the prepared canal exert ^{a load pressure on the support part in a d; c} " ^- .e manner so that the wires leave the bottom of the prepared canal without undue bending or kinking and also over the load-bearing surface 6C of the Support part 6 can be carried away, the load-bearing surface 6C of the support part 6 is convexly curved, the radius of curvature being smaller than the radius of the bottom of the channel 4 and therefore smaller than the radius of the bottom of the prepared channels

The exact action of the wires on the load-bearing surface bC of the support part is achieved in that the load-bearing surfaces 7 A of the auxiliary supports 7 protrude a little over the base of the channel 4 and thus beyond the distance circle of the bottom of the prepared channels. The auxiliary supports 7 are rigidly connected to the main support 6 via the base plate 1. The load-absorbing rakes 7 A of the auxiliary supports 7 are curved somewhat convexly. The side walls 6A of the support part 6 serve to hold the tension wires in the correct position.

D>. Dimensions of the base plate 1 are chosen so that the stresses occurring in the concrete below the slat are the same as those under the immediately adjacent sections of the prepared canal.

During the useful life of the container, the four measuring devices 5 can be subjected to Record the load continuously on a recording device (not shown). Since the on the support part 6 The load exerted radially to the container is directly proportional to the tensile stress in the tension wires, changes the reading results mnerha'b any period of time recognize that there has been a change in the stress in the tension wires.

In order to be able to relieve the four measuring devices and to be able to reset them to zero if necessary / u , four lifting devices 9 are shown in the FIG. 3 designated Weis "used and operated so that the four measuring devices 5 are relieved. If necessary, the measuring devices 5 can then be removed and repaired or replaced.

In a modified embodiment (not shown), relieving lifting devices (the take the place of the Heöeeinrichtungen 9) seek be arranged above the support part 6 instead of below this part. For this purpose stand

5 6

built-in, which rest on the base plate at the point, lifting devices when operated on the

at the in F i g. 3 the lifting devices 9 drawn measuring devices 5 absorb acting load.

are, and two support approaches are provided. Of course, in any container, so

which temporarily attach many probes to the top of the support member 6 as necessary.

can be screwed on; these approaches are with '> also can have more or less than four

Provided wings that extend over the stand, measuring devices 5 are provided.
so that placed between the stand and these wings

1 sheet of drawings

Claims (9)

Patent claims: 1. Sensor for the continuous determination of the tensile load of pre-tensioned wires or tapes wound around a round or approximately round container, in particular concrete container, which can be used in the area of the wires or tapes in an outer recess of the container wall in such a way that the recess through the pre-tensioned Wires or bands is bridged when they are wrapped around the container, characterized in that the measuring sensor has a supporting part (6) which carries the pretensioned wires or bands and which rests freely on a measuring device | 5 (5) which can be subjected to compressive loads and which in turn stands on a base plate (1) that can be firmly connected to the bottom of the outer recess of the container wall, so that the support part (6) or the measuring device (5) is dimensioned so that the surface ( 6c) of the support part (6) while raising the pretensioned wires or braces n which lies above the connecting surface between the upper edges of the outer recess of the container wall carrying the prestressed wires or bands and between the said upper edges. 2. Sensor according to claim 1 for a container with outwardly open channels for receiving the pretensioned wires or strips, the channel walls of which are provided with linings, characterized in that the support part (6) carried by the measuring device (5) with its the The wires or bands are raised when the surface (6c) is arranged between the ends of the outwardly open channels (4) which open into the recess in the container wall. 3. Sensor according to claim 2, characterized in that the upper edges of the recesses in the container wall in the region of the upwardly open channels (4) from the upper surfaces (7A) of two auxiliary supports (7) firmly connected to the base plate (1) are formed which extend into said channels (4). 4. Sensor according to Claim 3, characterized in that the upper surfaces (7A) of the auxiliary supports (7) which absorb the pressure load on the wires or strips protrude slightly beyond the base of the channels (4). 5. Sensor according to claim 4, characterized in that the la »running surfaces (7 A) of the auxiliary supports (7) are curved. 6. Sensor according to one of claims 1 to 5, characterized in that the load-bearing ¹ ^ fly (61) of the support part (6) is curved with a radius. which is smaller than the radius of the base of the channels (4). 7 sensor according to one of claims 2 to 6, characterized in that the sensor mi receiving outer recess of the container wall in its width the outwardly open channels (4) and is provided on all sides with end walls (2, 3), which are attached to the Ausfiitteriing of Connect the duct walls and to the base plate (I). ί '> 8. Sensor according to one of claims 2 to 7, characterized in that the support part (6) is provided with Hiifrechtsichenden walls [6A) whose distance from one another corresponds to the mutual distance between the side walls of the outwardly open channels (4) 9. Sensor according to one of claims 1 to 8, characterized by between the support part (6) and Base plate (1) usable lifting devices (9).